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USN-1162-1: Linux kernel vulnerabilities (Marvell Dove)

29 June 2011

Multiple kernel flaws have been fixed.

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Releases

Packages

Details

Brad Spengler discovered that the kernel did not correctly account for
userspace memory allocations during exec() calls. A local attacker could
exploit this to consume all system memory, leading to a denial of service.
(CVE-2010-4243)

Alexander Duyck discovered that the Intel Gigabit Ethernet driver did not
correctly handle certain configurations. If such a device was configured
without VLANs, a remote attacker could crash the system, leading to a
denial of service. (CVE-2010-4263)

Nelson Elhage discovered that Econet did not correctly handle AUN packets
over UDP. A local attacker could send specially crafted traffic to crash
the system, leading to a denial of service. (CVE-2010-4342)

Dan Rosenberg discovered that IRDA did not correctly check the size of
buffers. On non-x86 systems, a local attacker could exploit this to read
kernel heap memory, leading to a loss of privacy. (CVE-2010-4529)

Dan Rosenburg discovered that the CAN subsystem leaked kernel addresses
into the /proc filesystem. A local attacker could use this to increase the
chances of a successful memory corruption exploit. (CVE-2010-4565)

Goldwyn Rodrigues discovered that the OCFS2 filesystem did not correctly
clear memory when writing certain file holes. A local attacker could
exploit this to read uninitialized data from the disk, leading to a loss of
privacy. (CVE-2011-0463)

Jens Kuehnel discovered that the InfiniBand driver contained a race
condition. On systems using InfiniBand, a local attacker could send
specially crafted requests to crash the system, leading to a denial of
service. (CVE-2011-0695)

Dan Rosenberg discovered that XFS did not correctly initialize memory. A
local attacker could make crafted ioctl calls to leak portions of kernel
stack memory, leading to a loss of privacy. (CVE-2011-0711)

Kees Cook reported that /proc/pid/stat did not correctly filter certain
memory locations. A local attacker could determine the memory layout of
processes in an attempt to increase the chances of a successful memory
corruption exploit. (CVE-2011-0726)

Matthiew Herrb discovered that the drm modeset interface did not correctly
handle a signed comparison. A local attacker could exploit this to crash
the system or possibly gain root privileges. (CVE-2011-1013)

Marek Olšák discovered that the Radeon GPU drivers did not correctly
validate certain registers. On systems with specific hardware, a local
attacker could exploit this to write to arbitrary video memory.
(CVE-2011-1016)

Timo Warns discovered that the LDM disk partition handling code did not
correctly handle certain values. By inserting a specially crafted disk
device, a local attacker could exploit this to gain root privileges.
(CVE-2011-1017)

Vasiliy Kulikov discovered that the CAP_SYS_MODULE capability was not
needed to load kernel modules. A local attacker with the CAP_NET_ADMIN
capability could load existing kernel modules, possibly increasing the
attack surface available on the system. (CVE-2011-1019)

Vasiliy Kulikov discovered that the Bluetooth stack did not correctly clear
memory. A local attacker could exploit this to read kernel stack memory,
leading to a loss of privacy. (CVE-2011-1078)

Vasiliy Kulikov discovered that the Bluetooth stack did not correctly check
that device name strings were NULL terminated. A local attacker could
exploit this to crash the system, leading to a denial of service, or leak
contents of kernel stack memory, leading to a loss of privacy.
(CVE-2011-1079)

Vasiliy Kulikov discovered that bridge network filtering did not check that
name fields were NULL terminated. A local attacker could exploit this to
leak contents of kernel stack memory, leading to a loss of privacy.
(CVE-2011-1080)

Neil Horman discovered that NFSv4 did not correctly handle certain orders
of operation with ACL data. A remote attacker with access to an NFSv4 mount
could exploit this to crash the system, leading to a denial of service.
(CVE-2011-1090)

Peter Huewe discovered that the TPM device did not correctly initialize
memory. A local attacker could exploit this to read kernel heap memory
contents, leading to a loss of privacy. (CVE-2011-1160)

Timo Warns discovered that OSF partition parsing routines did not correctly
clear memory. A local attacker with physical access could plug in a
specially crafted block device to read kernel memory, leading to a loss of
privacy. (CVE-2011-1163)

Vasiliy Kulikov discovered that the netfilter code did not check certain
strings copied from userspace. A local attacker with netfilter access could
exploit this to read kernel memory or crash the system, leading to a denial
of service. (CVE-2011-1170, CVE-2011-1171, CVE-2011-1172, CVE-2011-2534)

Vasiliy Kulikov discovered that the Acorn Universal Networking driver did
not correctly initialize memory. A remote attacker could send specially
crafted traffic to read kernel stack memory, leading to a loss of privacy.
(CVE-2011-1173)

Dan Rosenberg discovered that the IRDA subsystem did not correctly check
certain field sizes. If a system was using IRDA, a remote attacker could
send specially crafted traffic to crash the system or gain root privileges.
(CVE-2011-1180)

Julien Tinnes discovered that the kernel did not correctly validate the
signal structure from tkill(). A local attacker could exploit this to send
signals to arbitrary threads, possibly bypassing expected restrictions.
(CVE-2011-1182)

Dan Rosenberg reported errors in the OSS (Open Sound System) MIDI
interface. A local attacker on non-x86 systems might be able to cause a
denial of service. (CVE-2011-1476)

Dan Rosenberg reported errors in the kernel's OSS (Open Sound System)
driver for Yamaha FM synthesizer chips. A local user can exploit this to
cause memory corruption, causing a denial of service or privilege
escalation. (CVE-2011-1477)

Ryan Sweat discovered that the GRO code did not correctly validate memory.
In some configurations on systems using VLANs, a remote attacker could send
specially crafted traffic to crash the system, leading to a denial of
service. (CVE-2011-1478)

Dan Rosenberg discovered that MPT devices did not correctly validate
certain values in ioctl calls. If these drivers were loaded, a local
attacker could exploit this to read arbitrary kernel memory, leading to a
loss of privacy. (CVE-2011-1494, CVE-2011-1495)

It was discovered that the Stream Control Transmission Protocol (SCTP)
implementation incorrectly calculated lengths. If the net.sctp.addip_enable
variable was turned on, a remote attacker could send specially crafted
traffic to crash the system. (CVE-2011-1573)

Tavis Ormandy discovered that the pidmap function did not correctly handle
large requests. A local attacker could exploit this to crash the system,
leading to a denial of service. (CVE-2011-1593)

Oliver Hartkopp and Dave Jones discovered that the CAN network driver did
not correctly validate certain socket structures. If this driver was
loaded, a local attacker could crash the system, leading to a denial of
service. (CVE-2011-1598, CVE-2011-1748)

Vasiliy Kulikov discovered that the AGP driver did not check certain ioctl
values. A local attacker with access to the video subsystem could exploit
this to crash the system, leading to a denial of service, or possibly gain
root privileges. (CVE-2011-1745, CVE-2011-2022)

Vasiliy Kulikov discovered that the AGP driver did not check the size of
certain memory allocations. A local attacker with access to the video
subsystem could exploit this to run the system out of memory, leading to a
denial of service. (CVE-2011-1746)

Dan Rosenberg reported an error in the old ABI compatibility layer of ARM
kernels. A local attacker could exploit this flaw to cause a denial of
service or gain root privileges. (CVE-2011-1759)

Dan Rosenberg discovered that the DCCP stack did not correctly handle
certain packet structures. A remote attacker could exploit this to crash
the system, leading to a denial of service. (CVE-2011-1770)

Timo Warns discovered that the EFI GUID partition table was not correctly
parsed. A physically local attacker that could insert mountable devices
could exploit this to crash the system or possibly gain root privileges.
(CVE-2011-1776)

A flaw was found in the b43 driver in the Linux kernel. An attacker could
use this flaw to cause a denial of service if the system has an active
wireless interface using the b43 driver. (CVE-2011-3359)

Yogesh Sharma discovered that CIFS did not correctly handle UNCs that had
no prefixpaths. A local attacker with access to a CIFS partition could
exploit this to crash the system, leading to a denial of service.
(CVE-2011-3363)

Maynard Johnson discovered that on POWER7, certain speculative events may
raise a performance monitor exception. A local attacker could exploit this
to crash the system, leading to a denial of service. (CVE-2011-4611)

Dan Rosenberg discovered flaws in the linux Rose (X.25 PLP) layer used by
amateur radio. A local user or a remote user on an X.25 network could
exploit these flaws to execute arbitrary code as root. (CVE-2011-4913)

Reduce your security exposure

Ubuntu Pro provides ten-year security coverage to 25,000+ packages in Main and Universe repositories, and it is free for up to five machines.

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Update instructions

The problem can be corrected by updating your system to the following package versions:

Ubuntu 10.04

After a standard system update you need to reboot your computer to make
all the necessary changes.

ATTENTION: Due to an unavoidable ABI change the kernel updates have
been given a new version number, which requires you to recompile and
reinstall all third party kernel modules you might have installed. If
you use linux-restricted-modules, you have to update that package as
well to get modules which work with the new kernel version. Unless you
manually uninstalled the standard kernel metapackages (e.g. linux-generic,
linux-server, linux-powerpc), a standard system upgrade will automatically
perform this as well.

Related notices

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  • USN-1141-1: linux, linux-image-2.6.32-32-lpia, linux-image-2.6.32-32-386, linux-image-2.6.32-32-sparc64, linux-ec2, linux-image-2.6.32-32-sparc64-smp, linux-image-2.6.32-32-powerpc, linux-image-2.6.32-316-ec2, linux-image-2.6.32-32-generic-pae, linux-image-2.6.32-32-versatile, linux-image-2.6.32-32-server, linux-image-2.6.32-32-powerpc-smp, linux-image-2.6.32-32-powerpc64-smp, linux-image-2.6.32-32-generic, linux-image-2.6.32-32-ia64, linux-image-2.6.32-32-virtual, linux-image-2.6.32-32-preempt
  • USN-1083-1: linux-image-2.6.35-25-virtual, linux-image-2.6.35-25-generic-pae, linux-image-2.6.35-25-generic, linux-lts-backport-maverick, linux-image-2.6.35-25-server
  • USN-1054-1: linux-ec2, linux-image-2.6.35-25-generic-pae, linux-image-2.6.35-25-virtual, linux-image-2.6.32-28-ia64, linux-image-2.6.35-25-powerpc64-smp, linux-image-2.6.35-25-server, linux-image-2.6.32-28-powerpc, linux-image-2.6.32-28-virtual, linux-image-2.6.32-28-sparc64-smp, linux-image-2.6.32-312-ec2, linux-image-2.6.32-28-386, linux-image-2.6.35-25-versatile, linux-image-2.6.35-25-powerpc, linux-image-2.6.32-28-generic-pae, linux, linux-image-2.6.32-28-preempt, linux-image-2.6.32-28-lpia, linux-image-2.6.35-25-powerpc-smp, linux-image-2.6.35-25-omap, linux-image-2.6.32-28-sparc64, linux-image-2.6.32-28-generic, linux-image-2.6.32-28-versatile, linux-image-2.6.35-25-generic, linux-image-2.6.32-28-server, linux-image-2.6.32-28-powerpc64-smp, linux-image-2.6.32-28-powerpc-smp
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  • USN-1159-1: linux-image-2.6.32-417-dove, linux-mvl-dove
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  • USN-1133-1: linux-image-2.6.24-29-powerpc-smp, linux-image-2.6.24-29-lpiacompat, linux-image-2.6.24-29-rt, linux-image-2.6.24-29-mckinley, linux-image-2.6.24-29-386, linux-image-2.6.24-29-itanium, linux, linux-image-2.6.24-29-virtual, linux-image-2.6.24-29-sparc64, linux-image-2.6.24-29-lpia, linux-image-2.6.24-29-hppa64, linux-image-2.6.24-29-hppa32, linux-image-2.6.24-29-powerpc, linux-image-2.6.24-29-xen, linux-image-2.6.24-29-openvz, linux-image-2.6.24-29-server, linux-image-2.6.24-29-generic, linux-image-2.6.24-29-powerpc64-smp, linux-image-2.6.24-29-sparc64-smp
  • USN-1111-1: linux-image-2.6.15-57-sparc64, linux-image-2.6.15-57-mckinley, linux-image-2.6.15-57-k7, linux-image-2.6.15-57-hppa64, linux-image-2.6.15-57-686, linux-image-2.6.15-57-itanium, linux-image-2.6.15-57-hppa32, linux-image-2.6.15-57-mckinley-smp, linux-image-2.6.15-57-amd64-server, linux-image-2.6.15-57-server-bigiron, linux-image-2.6.15-57-powerpc-smp, linux-image-2.6.15-57-server, linux-image-2.6.15-57-amd64-generic, linux-image-2.6.15-57-hppa32-smp, linux-image-2.6.15-57-itanium-smp, linux-image-2.6.15-57-sparc64-smp, linux-image-2.6.15-57-386, linux-source-2.6.15, linux-image-2.6.15-57-powerpc64-smp, linux-image-2.6.15-57-amd64-xeon, linux-image-2.6.15-57-hppa64-smp, linux-image-2.6.15-57-amd64-k8, linux-image-2.6.15-57-powerpc
  • USN-1081-1: linux, linux-image-2.6.35-27-powerpc-smp, linux-image-2.6.35-27-generic-pae, linux-image-2.6.35-27-server, linux-image-2.6.35-27-generic, linux-image-2.6.35-27-powerpc64-smp, linux-image-2.6.35-27-omap, linux-image-2.6.35-27-virtual, linux-image-2.6.35-27-versatile, linux-image-2.6.35-27-powerpc
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  • USN-1170-1: linux-image-2.6.24-29-powerpc-smp, linux-image-2.6.24-29-lpiacompat, linux-image-2.6.24-29-rt, linux-image-2.6.24-29-mckinley, linux-image-2.6.24-29-386, linux-image-2.6.24-29-itanium, linux, linux-image-2.6.24-29-virtual, linux-image-2.6.24-29-sparc64, linux-image-2.6.24-29-lpia, linux-image-2.6.24-29-hppa64, linux-image-2.6.24-29-hppa32, linux-image-2.6.24-29-powerpc, linux-image-2.6.24-29-xen, linux-image-2.6.24-29-openvz, linux-image-2.6.24-29-server, linux-image-2.6.24-29-generic, linux-image-2.6.24-29-powerpc64-smp, linux-image-2.6.24-29-sparc64-smp
  • USN-1168-1: linux, linux-image-2.6.32-33-generic, linux-image-2.6.32-33-powerpc, linux-image-2.6.32-33-preempt, linux-image-2.6.32-33-lpia, linux-image-2.6.32-33-server, linux-image-2.6.32-33-virtual, linux-image-2.6.32-33-generic-pae, linux-image-2.6.32-33-sparc64-smp, linux-image-2.6.32-33-powerpc-smp, linux-image-2.6.32-33-386, linux-image-2.6.32-33-ia64, linux-image-2.6.32-33-versatile, linux-image-2.6.32-33-powerpc64-smp, linux-image-2.6.32-33-sparc64
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  • USN-1189-1: linux-image-2.6.24-29-powerpc-smp, linux-image-2.6.24-29-lpiacompat, linux-image-2.6.24-29-rt, linux-image-2.6.24-29-mckinley, linux-image-2.6.24-29-386, linux-image-2.6.24-29-itanium, linux, linux-image-2.6.24-29-virtual, linux-image-2.6.24-29-sparc64, linux-image-2.6.24-29-lpia, linux-image-2.6.24-29-hppa64, linux-image-2.6.24-29-hppa32, linux-image-2.6.24-29-powerpc, linux-image-2.6.24-29-xen, linux-image-2.6.24-29-openvz, linux-image-2.6.24-29-server, linux-image-2.6.24-29-generic, linux-image-2.6.24-29-powerpc64-smp, linux-image-2.6.24-29-sparc64-smp
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  • USN-1390-1: linux-image-2.6.24-31-sparc64, linux-image-2.6.24-31-hppa64, linux-image-2.6.24-31-virtual, linux-image-2.6.24-31-rt, linux-image-2.6.24-31-lpia, linux-image-2.6.24-31-generic, linux-image-2.6.24-31-xen, linux, linux-image-2.6.24-31-itanium, linux-image-2.6.24-31-lpiacompat, linux-image-2.6.24-31-386, linux-image-2.6.24-31-openvz, linux-image-2.6.24-31-powerpc64-smp, linux-image-2.6.24-31-server, linux-image-2.6.24-31-powerpc-smp, linux-image-2.6.24-31-hppa32, linux-image-2.6.24-31-mckinley, linux-image-2.6.24-31-powerpc, linux-image-2.6.24-31-sparc64-smp
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  • USN-1236-1: linux-image-2.6.24-29-powerpc-smp, linux-image-2.6.24-29-lpiacompat, linux-image-2.6.24-29-rt, linux-image-2.6.24-29-mckinley, linux-image-2.6.24-29-386, linux-image-2.6.24-29-itanium, linux, linux-image-2.6.24-29-virtual, linux-image-2.6.24-29-sparc64, linux-image-2.6.24-29-lpia, linux-image-2.6.24-29-hppa64, linux-image-2.6.24-29-hppa32, linux-image-2.6.24-29-powerpc, linux-image-2.6.24-29-xen, linux-image-2.6.24-29-openvz, linux-image-2.6.24-29-server, linux-image-2.6.24-29-generic, linux-image-2.6.24-29-powerpc64-smp, linux-image-2.6.24-29-sparc64-smp
  • USN-1341-1: linux, linux-image-2.6.35-32-powerpc, linux-image-2.6.35-32-server, linux-image-2.6.35-32-omap, linux-image-2.6.35-32-powerpc64-smp, linux-image-2.6.35-32-virtual, linux-image-2.6.35-32-generic, linux-image-2.6.35-32-generic-pae, linux-image-2.6.35-32-powerpc-smp, linux-image-2.6.35-32-versatile
  • USN-1332-1: linux-image-2.6.35-32-server, linux-image-2.6.35-32-virtual, linux-image-2.6.35-32-generic, linux-image-2.6.35-32-generic-pae, linux-lts-backport-maverick
  • USN-1383-1: linux-image-2.6.38-1209-omap4, linux-ti-omap4
  • USN-1205-1: linux-image-2.6.35-30-server, linux-image-2.6.35-30-generic, linux-image-2.6.35-30-generic-pae, linux-lts-backport-maverick, linux-image-2.6.35-30-virtual
  • USN-1201-1: linux, linux-image-2.6.35-30-server, linux-image-2.6.35-30-powerpc64-smp, linux-image-2.6.35-30-powerpc, linux-image-2.6.35-30-generic, linux-image-2.6.35-30-generic-pae, linux-image-2.6.35-30-versatile, linux-image-2.6.35-30-omap, linux-image-2.6.35-30-powerpc-smp, linux-image-2.6.35-30-virtual
  • USN-1219-1: linux-image-2.6.35-30-server, linux-image-2.6.35-30-generic, linux-image-2.6.35-30-generic-pae, linux-lts-backport-maverick, linux-image-2.6.35-30-virtual
  • USN-1228-1: linux-image-2.6.38-1209-omap4, linux-ti-omap4
  • USN-1220-1: linux-ti-omap4, linux-image-2.6.35-903-omap4
  • USN-1227-1: linux, linux-image-2.6.35-30-server, linux-image-2.6.35-30-powerpc64-smp, linux-image-2.6.35-30-powerpc, linux-image-2.6.35-30-generic, linux-image-2.6.35-30-generic-pae, linux-image-2.6.35-30-versatile, linux-image-2.6.35-30-omap, linux-image-2.6.35-30-powerpc-smp, linux-image-2.6.35-30-virtual
  • USN-1225-1: linux-image-2.6.24-29-powerpc-smp, linux-image-2.6.24-29-lpiacompat, linux-image-2.6.24-29-rt, linux-image-2.6.24-29-mckinley, linux-image-2.6.24-29-386, linux-image-2.6.24-29-itanium, linux, linux-image-2.6.24-29-virtual, linux-image-2.6.24-29-sparc64, linux-image-2.6.24-29-lpia, linux-image-2.6.24-29-hppa64, linux-image-2.6.24-29-hppa32, linux-image-2.6.24-29-powerpc, linux-image-2.6.24-29-xen, linux-image-2.6.24-29-openvz, linux-image-2.6.24-29-server, linux-image-2.6.24-29-generic, linux-image-2.6.24-29-powerpc64-smp, linux-image-2.6.24-29-sparc64-smp
  • USN-1325-1: linux-ti-omap4, linux-image-2.6.35-903-omap4
  • USN-1323-1: linux-image-2.6.24-30-lpiacompat, linux-image-2.6.24-30-powerpc, linux-image-2.6.24-30-lpia, linux-image-2.6.24-30-generic, linux-image-2.6.24-30-xen, linux-image-2.6.24-30-server, linux-image-2.6.24-30-openvz, linux-image-2.6.24-30-sparc64, linux, linux-image-2.6.24-30-386, linux-image-2.6.24-30-virtual, linux-image-2.6.24-30-mckinley, linux-image-2.6.24-30-sparc64-smp, linux-image-2.6.24-30-hppa32, linux-image-2.6.24-30-rt, linux-image-2.6.24-30-hppa64, linux-image-2.6.24-30-itanium, linux-image-2.6.24-30-powerpc-smp, linux-image-2.6.24-30-powerpc64-smp
  • USN-1243-1: linux, linux-image-2.6.35-30-server, linux-image-2.6.35-30-powerpc64-smp, linux-image-2.6.35-30-powerpc, linux-image-2.6.35-30-generic, linux-image-2.6.35-30-generic-pae, linux-image-2.6.35-30-versatile, linux-image-2.6.35-30-omap, linux-image-2.6.35-30-powerpc-smp, linux-image-2.6.35-30-virtual
  • USN-1281-1: linux-image-2.6.38-1209-omap4, linux-ti-omap4
  • USN-1244-1: linux-ti-omap4, linux-image-2.6.35-903-omap4
  • USN-1242-1: linux-image-2.6.35-30-server, linux-image-2.6.35-30-generic, linux-image-2.6.35-30-generic-pae, linux-lts-backport-maverick, linux-image-2.6.35-30-virtual